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Method for increasing legume productivity by cultivating a plant with an associated rhizobium overexpressing a flavohemoglobin protein

a technology of rhizobium and rhizobium, which is applied in the field of increasing legume productivity by, can solve problems such as potential toxicity, and achieve the effects of increasing respiratory activity, increasing nitrogenase activity, and increasing nitrogen conten

Inactive Publication Date: 2013-10-24
INSTITUT NATIONAL DE LA RECHERCHE AGRONOMIQUE +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

The invention is related to a new symbiotic system that improves the life-time of nodules in plants of the Leguminosae family. This is achieved by overexpressing a flavohemoglobin protein in the rhizobium bacterium, which detoxifies nitric oxide and delays the senescence of the nodule. This system also results in increased nitrogen fixation and biomass, leading to better yield of culture in agriculture. The invention also includes a method for cultivating plants using the new symbiotic system, resulting in better nitrogen fixation and increased biomass. The presence of nitric oxide is shown to induce the senescence process of nodules, and the flavohemoglobin enzyme detoxifies nitric oxide, thus delaying the senescence process and increasing the life-time of nodules.

Problems solved by technology

Nitric oxide plays a key role in intracellular signalling in biological systems, but it is also potentially toxic due to its reaction with a variety of cellular targets.

Method used

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  • Method for increasing legume productivity by cultivating a plant with an associated rhizobium overexpressing a flavohemoglobin protein
  • Method for increasing legume productivity by cultivating a plant with an associated rhizobium overexpressing a flavohemoglobin protein
  • Method for increasing legume productivity by cultivating a plant with an associated rhizobium overexpressing a flavohemoglobin protein

Examples

Experimental program
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Effect test

example 1

[0060]M. truncatula plantlets grown on nitrogen-free Farhaeus solid medium were inoculated with the wild type Rm2011 S. meliloti strain (Wt) or the strain overexpressing the flavohemoglobin gene (hmp++) (Meilhoc et al. 2010). Evolution of nodule senescence was visually monitored: a nodule was judged senescent when presenting a greenish senescence zone in its proximal part. Observations made between 40 and 57 days post-inoculations (dpi) are reported as a percentage of the total number of nodules examined (81 and 41 nodules for the wt and hmp++ strains, respectively). Results of a representative experiment are shown in FIG. 1. Forty days post-inoculation (dpi), while ˜50% of the nodules induced by the Wt strain displayed a senescence zone, very little sign of senescence was visible yet for the nodules induced by the hmp++ strain. At 57 dpi, while 80% of the Wt-induced nodules were clearly senescent, only one third of the hmp++-induced nodules displayed visible signs of senescence.

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example 2

[0062]To quantify the impact of delaying nodule senescence on the plants, the shoot dry weight and nitrogenase activity of M. truncatula plants inoculated with either the Wt or the hmp++ strains (using an acetylene reduction assay, ARA) were measured 46 days post-inoculation. The results of a representative experiment are shown in Table 1 (25 plants for the dry weight and 10 plants for the ARA test). Forty-six days post-inoculation, the shoot dry weight and nitrogenase activity of plants inoculated with the hmp++ strain were higher than those of plants inoculated with the Wt strain.

[0063]At later stages of the cultures (i.e. 9 weeks post-inoculation), the aerial parts of the wt-inoculated plants were more chlorotic than those of the hmp++-inoculated plants (approximately twice as much yellowish leaves).

TABLE 1Shoot dry weight and nitrogenase activity of M. truncatula plants 46 daysafter inoculation with either the wt or hmp++ S. meliloti strains.Nitrogenase activityShoot dry weight ...

example 3

[0067]Three weeks post-inoculation, M. truncatula plants inoculated with S. meliloti, either the Wt or the hmp++ strain, are submitted to a dark stress for 72 hours (‘treated’), while negative controls are not (‘non treated’).

[0068]One week after the return of plants to normal conditions, the number of senescent nodules is measured. FIG. 5 shows the mean and standard error of results from three independent experiments (total of ˜30 plants for each point); stars indicate results significantly different from the results obtained with the Wt strain (student t test, prhizobium. On the contrary, plants inoculated with a hmp++ strain of rhizobium have been more resistant to the dark stress, showing only 35% senescent nodules per plant on average, and at the maximum 50% senescent nodules.

[0069]These results show that the over-expression of the gene hmp in S. meliloti allows the obtention of nodules having a delayed senescence, both under physiological conditions (‘natural senescence’) and ...

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Abstract

The invention is related to a symbiotic system comprising a plant of the Leguminosae family, and a bacterium of the rhizobium family, wherein in said bacterium a gene coding for a flavohemoglobin protein is over expressed. The present invention is also related to a method for delaying the senescence of symbiotic nodules, comprising inoculating a plant of the Leguminosae family with a bacterium of the rhizobium family, wherein said rhizobium overexpresses a gene coding for a flavohemoglobin protein. A method for cultivating a plant of the Leguminosae family is also disclosed.

Description

[0001]The present invention is related to a new symbiotic system comprising a plant of the Leguminosae family, inoculated with a bacterium of the rhizobium family to allow the plant to develop nodules, wherein said nodules have an increased life time, their senescence being delayed.[0002]Under nitrogen-limiting conditions, capable plants (usually legumes) form a symbiotic relationship with host-specific strains of bacteria known as “rhizobia” (or bacteria of the rhizobium family). New organs called “nodules” form on the roots of plants that associate with rhizobia. Within legume nodules, rhizobia convert nitrogen gas from the atmosphere into ammonia, which is then assimilated into amino acids, nucleotides, and other cellular constituents such as vitamins, flavones, and hormones for the benefit of the plant. Inoculation of legume crops with nitrogen-fixing symbiotic bacteria is a common agricultural practice to limit the use of nitrogen inputs.[0003]Symbiotic nodules have a limited f...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): A01N63/02A01N63/20
CPCA01N63/02C12N9/0071A01N63/20
Inventor BRUAND, CLAUDECAM, YVANMEILHOC, ELIANE
Owner INSTITUT NATIONAL DE LA RECHERCHE AGRONOMIQUE
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